How does an air purifier work? Simple, an air purifier captures the particles that you don’t want in the air so you can breathe safe and easy. Now let’s dive into the technicalities of air purification.
Air is made up of a melting pot of particulates that greatly vary in size include things such as: pollen, mold spores, dust, bacteria, pet dander, soot, and viruses. The sizes of all these particles range from about 100 microns on the large side, down as small as 0.003 microns. That’s equatable to the thickness of a human hair, down all the way to the size of DNA!
Now if you took a sample of air and counted the particles and their sizes, more than 90% of particles are in the size range of 0.1 to 0.003 microns.
Filter Material and Air Flow
Air filters can be made of a multitude of materials that capture coarse, fine, and ultrafine particles. Some of these fibrous materials include: fiberglass, natural or synthetic hair, polyester, or polyurethane. Each filter material has different advantages like lifespan, capture rate, and airflow resistance.
There are four methods of collection that trap particles to the filter material.
First there is interception. This is when a particle is following a stream of air and makes contact with a filter fiber, becoming adhered to the filter material.
Secondly is inertial impaction. This occurs when a particle is unable to follow the curve of an air stream around a fiber, impacting the face of the fiber and becoming adhered to it.
Next is diffusion. Particles on the smaller side of the size spectrum are colliding with gas molecules, causing the particle to follow a path behavior similar to Brownian motion, which looks like an erratic squiggly line when mapped out. The path of motion of these particles greatly increases the probability that the particle will adhere to the filter fiber.
Lastly is electrostatic attraction. Particles generally have a negative charge from floating in the air. The negative charge is attracted to a positively charged filter fiber and once contact is made the particle is stuck to the fiber.
VOC and Carbon
It’s important to understand that HEPA filters arrest very fine particles but do not filter out gases and odor molecules. This is where activated carbon goes to work, filtering out volatile organic compounds (VOC). Activated carbon works by having an incredibly large surface area and contact time for the gas molecules to become trapped inside the pore structure of the carbon. Carbon is capable of capturing voc’s, chemical vapors, cigarette smoke, pet odors, and many other flatulent or harmful gases.
What To Look For
High efficiency particulate air (HEPA) is a classification of air filtration efficiency. To classify as HEPA by US government standards, from the air that passes through it, an air filter must remove at least 99.97% of particles that have a size of 0.3 microns. Why only 0.3 microns? Is that the smallest size particle? As we saw before it is not. It’s not even in the 90% concentration size category of particles in the air. So what is special about 0.3 microns?
Well, filters have a weak point between 0.4 and 0.1 microns where their performance is lowest based on the collection mechanisms. This had led to one particle size of 0.21 microns that is the most difficult to capture and is known as the most penetrating particle size (MPPS). This has been repeatedly tested and scientifically proven. Because of this weak point, HEPA specifications use the retention of particles near the size of 0.3 microns to classify filters.
What are the benefits to having a high efficiency air purifier? Air purifiers remove particles from the air based on their efficiency rating. This means that a HEPA rated system with an efficiency of 99.97% at 0.3 microns will remove all larger and smaller particles from the air, essentially rendering the air dust free.People with [...]
Here’s what you need to consider when seeking an air purifier.What are you trying to filter out of the air?How big of a room/how much airflow do you need to be filtered?What is the air purifier constructed out of?What is the running cost of the system?How often will the system be running? 24hr operation?How noisy [...]